Material from this website is free to use, but if you use it in a publication or report please add the following reference:Miedema, S.A., "The Delft Head Loss & Limit Deposit Velocity Model".www.dredgingengineering.com. Delft, The Netherlands, 2012-now.

The hydraulic gradient versus the line speed.

The normalised hydraulic gradient versus the relative line speed.The hydraulic gradient is normalised by dividing by the hydraulic plug gradient.The line speed is relative by dividing by the maximum limit deposit velocity.

The relative excess hydraulic gradient versus the relative line speed.The line speed is relative by dividing by the maximum limit deposit velocity.

The relative volumetric transport concentration versus the relative line speed.The volumetric transport concentration is relative by dividing by the volumetric bed concentration.The line speed is relative by dividing by the maximum limit deposit velocity.

The relative slip velocity versus the relative line speed.The slip velocity is relative by dividing by the line speed.The line speed is relative by dividing by the maximum limit deposit velocity.

The relative bed velocity versus the relative line speed.The bed velocity is relative by dividing by the line speed.The line speed is relative by dividing by the maximum limit deposit velocity.

The hydraulic gradient versus the line speed.

The normalised hydraulic gradient versus the relative line speed.The hydraulic gradient is normalised by dividing by the hydraulic plug gradient.The line speed is relative by dividing by the maximum limit deposit velocity.

The relative excess hydraulic gradient versus the relative line speed.The line speed is relative by dividing by the maximum limit deposit velocity.

The normalised excess hydraulic gradient versus the relative line speed.The excess hydraulic gradient is normalised by dividing by the hydraulic plug gradient.The line speed is relative by dividing by the maximum limit deposit velocity.